/*
  ==============================================================================

   This file is part of the JUCE framework.
   Copyright (c) Raw Material Software Limited

   JUCE is an open source framework subject to commercial or open source
   licensing.

   By downloading, installing, or using the JUCE framework, or combining the
   JUCE framework with any other source code, object code, content or any other
   copyrightable work, you agree to the terms of the JUCE End User Licence
   Agreement, and all incorporated terms including the JUCE Privacy Policy and
   the JUCE Website Terms of Service, as applicable, which will bind you. If you
   do not agree to the terms of these agreements, we will not license the JUCE
   framework to you, and you must discontinue the installation or download
   process and cease use of the JUCE framework.

   JUCE End User Licence Agreement: https://juce.com/legal/juce-8-licence/
   JUCE Privacy Policy: https://juce.com/juce-privacy-policy
   JUCE Website Terms of Service: https://juce.com/juce-website-terms-of-service/

   Or:

   You may also use this code under the terms of the AGPLv3:
   https://www.gnu.org/licenses/agpl-3.0.en.html

   THE JUCE FRAMEWORK IS PROVIDED "AS IS" WITHOUT ANY WARRANTY, AND ALL
   WARRANTIES, WHETHER EXPRESSED OR IMPLIED, INCLUDING WARRANTY OF
   MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, ARE DISCLAIMED.

  ==============================================================================
*/

namespace juce
{

//==============================================================================
class LinuxComponentPeer final : public ComponentPeer,
                                 private XWindowSystemUtilities::XSettings::Listener
{
public:
    LinuxComponentPeer (Component& comp, int windowStyleFlags, ::Window parentToAddTo)
        : ComponentPeer (comp, windowStyleFlags),
          isAlwaysOnTop (comp.isAlwaysOnTop())
    {
        // it's dangerous to create a window on a thread other than the message thread
        JUCE_ASSERT_MESSAGE_MANAGER_IS_LOCKED

        const auto* instance = XWindowSystem::getInstance();

        if (! instance->isX11Available())
            return;

        if (isAlwaysOnTop)
            ++WindowUtilsInternal::numAlwaysOnTopPeers;

        repainter = std::make_unique<LinuxRepaintManager> (*this);

        windowH = instance->createWindow (parentToAddTo, this);
        parentWindow = parentToAddTo;

        setTitle (component.getName());

        if (auto* xSettings = instance->getXSettings())
            xSettings->addListener (this);

        getNativeRealtimeModifiers = []() -> ModifierKeys { return XWindowSystem::getInstance()->getNativeRealtimeModifiers(); };

        updateVBlankTimer();
    }

    ~LinuxComponentPeer() override
    {
        // it's dangerous to delete a window on a thread other than the message thread
        JUCE_ASSERT_MESSAGE_MANAGER_IS_LOCKED

        auto* instance = XWindowSystem::getInstance();

        repainter = nullptr;
        instance->destroyWindow (windowH);

        if (auto* xSettings = instance->getXSettings())
            xSettings->removeListener (this);

        if (isAlwaysOnTop)
            --WindowUtilsInternal::numAlwaysOnTopPeers;
    }

    ::Window getWindowHandle() const noexcept
    {
        return windowH;
    }

    //==============================================================================
    void* getNativeHandle() const override
    {
        return reinterpret_cast<void*> (getWindowHandle());
    }

    //==============================================================================
    void forceSetBounds (const Rectangle<int>& correctedNewBounds, bool isNowFullScreen)
    {
        bounds = correctedNewBounds;

        updateScaleFactorFromNewBounds (bounds, false);

        auto physicalBounds = parentWindow == 0 ? Desktop::getInstance().getDisplays().logicalToPhysical (bounds)
                                                : bounds * currentScaleFactor;

        WeakReference<Component> deletionChecker (&component);

        // If we are in a ConfigureNotify handler then forceSetBounds is being called as a
        // consequence of X11 telling us what the window size is. There's no need to report this
        // size back again to X11. By this we are avoiding a pitfall, when we get many subsequent
        // ConfigureNotify events, many of which has stale size information. By not calling
        // XWindowSystem::setBounds we are not actualising these old, incorrect sizes.
        if (! inConfigureNotifyHandler)
            XWindowSystem::getInstance()->setBounds (windowH, physicalBounds, isNowFullScreen);

        fullScreen = isNowFullScreen;

        if (deletionChecker != nullptr)
        {
            updateBorderSize();
            handleMovedOrResized();
        }
    }

    void setBounds (const Rectangle<int>& newBounds, bool isNowFullScreen) override
    {
        const auto correctedNewBounds = newBounds.withSize (jmax (1, newBounds.getWidth()),
                                                            jmax (1, newBounds.getHeight()));

        if (bounds != correctedNewBounds || fullScreen != isNowFullScreen)
            forceSetBounds (correctedNewBounds, isNowFullScreen);
    }

    Point<int> getScreenPosition (bool physical) const
    {
        auto physicalParentPosition = XWindowSystem::getInstance()->getPhysicalParentScreenPosition();
        auto parentPosition = parentWindow == 0 ? Desktop::getInstance().getDisplays().physicalToLogical (physicalParentPosition)
                                                : physicalParentPosition / currentScaleFactor;

        auto screenBounds = parentWindow == 0 ? bounds
                                              : bounds.translated (parentPosition.x, parentPosition.y);

        if (physical)
            return parentWindow == 0 ? Desktop::getInstance().getDisplays().logicalToPhysical (screenBounds.getTopLeft())
                                     : screenBounds.getTopLeft() * currentScaleFactor;

        return screenBounds.getTopLeft();
    }

    Rectangle<int> getBounds() const override
    {
        return bounds;
    }

    OptionalBorderSize getFrameSizeIfPresent() const override
    {
        return windowBorder;
    }

    BorderSize<int> getFrameSize() const override
    {
        const auto optionalBorderSize = getFrameSizeIfPresent();
        return optionalBorderSize ? (*optionalBorderSize) : BorderSize<int>();
    }

    Point<float> localToGlobal (Point<float> relativePosition) override
    {
        return localToGlobal (*this, relativePosition);
    }

    Point<float> globalToLocal (Point<float> screenPosition) override
    {
        return globalToLocal (*this, screenPosition);
    }

    using ComponentPeer::localToGlobal;
    using ComponentPeer::globalToLocal;

    //==============================================================================
    StringArray getAvailableRenderingEngines() override
    {
        return { "Software Renderer" };
    }

    void setVisible (bool shouldBeVisible) override
    {
        XWindowSystem::getInstance()->setVisible (windowH, shouldBeVisible);
    }

    void setTitle (const String& title) override
    {
        XWindowSystem::getInstance()->setTitle (windowH, title);
    }

    void setMinimised (bool shouldBeMinimised) override
    {
        if (shouldBeMinimised)
            XWindowSystem::getInstance()->setMinimised (windowH, shouldBeMinimised);
        else
            setVisible (true);
    }

    bool isMinimised() const override
    {
        return XWindowSystem::getInstance()->isMinimised (windowH);
    }

    bool isShowing() const override
    {
        return ! XWindowSystem::getInstance()->isMinimised (windowH);
    }

    void setFullScreen (bool shouldBeFullScreen) override
    {
        auto r = lastNonFullscreenBounds; // (get a copy of this before de-minimising)

        setMinimised (false);

        if (fullScreen != shouldBeFullScreen)
        {
            const auto usingNativeTitleBar = ((styleFlags & windowHasTitleBar) != 0);

            if (usingNativeTitleBar)
                XWindowSystem::getInstance()->setMaximised (windowH, shouldBeFullScreen);

            if (shouldBeFullScreen)
                r = usingNativeTitleBar ? XWindowSystem::getInstance()->getWindowBounds (windowH, parentWindow)
                                        : Desktop::getInstance().getDisplays().getDisplayForRect (bounds)->userArea;

            if (! r.isEmpty())
                setBounds (detail::ScalingHelpers::scaledScreenPosToUnscaled (component, r), shouldBeFullScreen);

            component.repaint();
        }
    }

    bool isFullScreen() const override
    {
        return fullScreen;
    }

    bool contains (Point<int> localPos, bool trueIfInAChildWindow) const override
    {
        if (! bounds.withZeroOrigin().contains (localPos))
            return false;

        for (int i = Desktop::getInstance().getNumComponents(); --i >= 0;)
        {
            auto* c = Desktop::getInstance().getComponent (i);

            if (c == &component)
                break;

            if (! c->isVisible())
                continue;

            auto* otherPeer = c->getPeer();
            jassert (otherPeer == nullptr || dynamic_cast<LinuxComponentPeer*> (c->getPeer()) != nullptr);

            if (auto* peer = static_cast<LinuxComponentPeer*> (otherPeer))
                if (peer->contains (globalToLocal (*peer, localToGlobal (*this, localPos.toFloat())).roundToInt(), true))
                    return false;
        }

        if (trueIfInAChildWindow)
            return true;

        return XWindowSystem::getInstance()->contains (windowH, localPos * currentScaleFactor);
    }

    void toFront (bool makeActive) override
    {
        if (makeActive)
        {
            setVisible (true);
            grabFocus();
        }

        XWindowSystem::getInstance()->toFront (windowH, makeActive);
        handleBroughtToFront();
    }

    void toBehind (ComponentPeer* other) override
    {
        if (auto* otherPeer = dynamic_cast<LinuxComponentPeer*> (other))
        {
            if (otherPeer->styleFlags & windowIsTemporary)
                return;

            setMinimised (false);
            XWindowSystem::getInstance()->toBehind (windowH, otherPeer->windowH);
        }
        else
        {
            jassertfalse; // wrong type of window?
        }
    }

    bool isFocused() const override
    {
        return XWindowSystem::getInstance()->isFocused (windowH);
    }

    void grabFocus() override
    {
        if (XWindowSystem::getInstance()->grabFocus (windowH))
            isActiveApplication = true;
    }

    //==============================================================================
    void repaint (const Rectangle<int>& area) override
    {
        if (repainter != nullptr)
            repainter->repaint (area.getIntersection (bounds.withZeroOrigin()));
    }

    void performAnyPendingRepaintsNow() override
    {
        if (repainter != nullptr)
            repainter->performAnyPendingRepaintsNow();
    }

    void setIcon (const Image& newIcon) override
    {
        XWindowSystem::getInstance()->setIcon (windowH, newIcon);
    }

    double getPlatformScaleFactor() const noexcept override
    {
        return currentScaleFactor;
    }

    void setAlpha (float) override                                  {}
    bool setAlwaysOnTop (bool) override                             { return false; }
    void textInputRequired (Point<int>, TextInputTarget&) override  {}

    //==============================================================================
    void addOpenGLRepaintListener (Component* dummy)
    {
        if (dummy != nullptr)
            glRepaintListeners.addIfNotAlreadyThere (dummy);
    }

    void removeOpenGLRepaintListener (Component* dummy)
    {
        if (dummy != nullptr)
            glRepaintListeners.removeAllInstancesOf (dummy);
    }

    void repaintOpenGLContexts()
    {
        for (auto* c : glRepaintListeners)
            c->handleCommandMessage (0);
    }

    //==============================================================================
    ::Window getParentWindow()                         { return parentWindow; }
    void setParentWindow (::Window newParent)          { parentWindow = newParent; }

    //==============================================================================
    bool isConstrainedNativeWindow() const
    {
        return constrainer != nullptr
            && (styleFlags & (windowHasTitleBar | windowIsResizable)) == (windowHasTitleBar | windowIsResizable)
            && ! isKioskMode();
    }

    void updateWindowBounds()
    {
        if (windowH == 0)
        {
            jassertfalse;
            return;
        }

        if (isConstrainedNativeWindow())
            XWindowSystem::getInstance()->updateConstraints (windowH);

        auto physicalBounds = XWindowSystem::getInstance()->getWindowBounds (windowH, parentWindow);

        updateScaleFactorFromNewBounds (physicalBounds, true);

        bounds = parentWindow == 0 ? Desktop::getInstance().getDisplays().physicalToLogical (physicalBounds)
                                   : physicalBounds / currentScaleFactor;

        updateVBlankTimer();
    }

    void updateBorderSize()
    {
        if ((styleFlags & windowHasTitleBar) == 0)
        {
            windowBorder = ComponentPeer::OptionalBorderSize { BorderSize<int>() };
        }
        else if (! windowBorder
                 || ((*windowBorder).getTopAndBottom() == 0 && (*windowBorder).getLeftAndRight() == 0))
        {
            windowBorder = [&]()
            {
                if (auto unscaledBorderSize = XWindowSystem::getInstance()->getBorderSize (windowH))
                    return OptionalBorderSize { (*unscaledBorderSize).multipliedBy (1.0 / currentScaleFactor) };

                return OptionalBorderSize {};
            }();
        }
    }

    bool setWindowAssociation (::Window windowIn)
    {
        clearWindowAssociation();
        association = { this, windowIn };
        return association.isValid();
    }

    void clearWindowAssociation() { association = {}; }

    void startHostManagedResize (Point<int>, ResizableBorderComponent::Zone zone) override
    {
        XWindowSystem::getInstance()->startHostManagedResize (windowH, zone);
    }

    //==============================================================================
    static bool isActiveApplication;
    bool focused = false;
    bool inConfigureNotifyHandler = false;

private:
    //==============================================================================
    class LinuxRepaintManager
    {
    public:
        LinuxRepaintManager (LinuxComponentPeer& p)
            : peer (p),
              isSemiTransparentWindow ((peer.getStyleFlags() & ComponentPeer::windowIsSemiTransparent) != 0)
        {
        }

        void dispatchDeferredRepaints()
        {
            XWindowSystem::getInstance()->processPendingPaintsForWindow (peer.windowH);

            if (XWindowSystem::getInstance()->getNumPaintsPendingForWindow (peer.windowH) > 0)
                return;

            if (! regionsNeedingRepaint.isEmpty())
                performAnyPendingRepaintsNow();
            else if (Time::getApproximateMillisecondCounter() > lastTimeImageUsed + 3000)
                image = Image();
        }

        void repaint (Rectangle<int> area)
        {
            regionsNeedingRepaint.add (area * peer.currentScaleFactor);
        }

        void performAnyPendingRepaintsNow()
        {
            if (XWindowSystem::getInstance()->getNumPaintsPendingForWindow (peer.windowH) > 0)
                return;

            auto originalRepaintRegion = regionsNeedingRepaint;
            regionsNeedingRepaint.clear();
            auto totalArea = originalRepaintRegion.getBounds();

            if (! totalArea.isEmpty())
            {
                const auto wasImageNull = image.isNull();

                if (wasImageNull || image.getWidth() < totalArea.getWidth()
                     || image.getHeight() < totalArea.getHeight())
                {
                    image = XWindowSystem::getInstance()->createImage (isSemiTransparentWindow,
                                                                       totalArea.getWidth(), totalArea.getHeight(),
                                                                       useARGBImagesForRendering);
                    if (wasImageNull)
                    {
                        // After calling createImage() XWindowSystem::getWindowBounds() will return
                        // changed coordinates that look like the result of some position
                        // defaulting mechanism. If we handle a configureNotifyEvent after
                        // createImage() and before we would issue new, valid coordinates, we will
                        // apply these default, unwanted coordinates to our window. To avoid that
                        // we immediately send another positioning message to guarantee that the
                        // next configureNotifyEvent will read valid values.
                        //
                        // This issue only occurs right after peer creation, when the image is
                        // null. Updating when only the width or height is changed would lead to
                        // incorrect behaviour.
                        peer.forceSetBounds (detail::ScalingHelpers::scaledScreenPosToUnscaled (peer.component, peer.component.getBoundsInParent()),
                                             peer.isFullScreen());
                    }
                }

                RectangleList<int> adjustedList (originalRepaintRegion);
                adjustedList.offsetAll (-totalArea.getX(), -totalArea.getY());

                if (XWindowSystem::getInstance()->canUseARGBImages())
                    for (auto& i : originalRepaintRegion)
                        image.clear (i - totalArea.getPosition());

                {
                    auto context = peer.getComponent().getLookAndFeel()
                                     .createGraphicsContext (image, -totalArea.getPosition(), adjustedList);

                    context->addTransform (AffineTransform::scale ((float) peer.currentScaleFactor));
                    peer.handlePaint (*context);
                }

                for (auto& i : originalRepaintRegion)
                   XWindowSystem::getInstance()->blitToWindow (peer.windowH, image, i, totalArea);
            }

            lastTimeImageUsed = Time::getApproximateMillisecondCounter();
        }

    private:
        LinuxComponentPeer& peer;
        const bool isSemiTransparentWindow;
        Image image;
        uint32 lastTimeImageUsed = 0;
        RectangleList<int> regionsNeedingRepaint;

        bool useARGBImagesForRendering = XWindowSystem::getInstance()->canUseARGBImages();

        JUCE_DECLARE_NON_COPYABLE (LinuxRepaintManager)
    };

    //==============================================================================
    template <typename This>
    static Point<float> localToGlobal (This& t, Point<float> relativePosition)
    {
        return relativePosition + t.getScreenPosition (false).toFloat();
    }

    template <typename This>
    static Point<float> globalToLocal (This& t, Point<float> screenPosition)
    {
        return screenPosition - t.getScreenPosition (false).toFloat();
    }

    //==============================================================================
    void settingChanged (const XWindowSystemUtilities::XSetting& settingThatHasChanged) override
    {
        static StringArray possibleSettings { XWindowSystem::getWindowScalingFactorSettingName(),
                                              "Gdk/UnscaledDPI",
                                              "Xft/DPI" };

        if (possibleSettings.contains (settingThatHasChanged.name))
            forceDisplayUpdate();
    }

    void updateScaleFactorFromNewBounds (const Rectangle<int>& newBounds, bool isPhysical)
    {
        Point<int> translation = (parentWindow != 0 ? getScreenPosition (isPhysical) : Point<int>());
        const auto& desktop = Desktop::getInstance();

        if (auto* display = desktop.getDisplays().getDisplayForRect (newBounds.translated (translation.x, translation.y),
                                                                     isPhysical))
        {
            auto newScaleFactor = display->scale / desktop.getGlobalScaleFactor();

            if (! approximatelyEqual (newScaleFactor, currentScaleFactor))
            {
                currentScaleFactor = newScaleFactor;
                scaleFactorListeners.call ([&] (ScaleFactorListener& l) { l.nativeScaleFactorChanged (currentScaleFactor); });
            }
        }
    }

    void onVBlank()
    {
        const auto timestampSec = Time::getMillisecondCounterHiRes() / 1000.0;
        callVBlankListeners (timestampSec);

        if (repainter != nullptr)
            repainter->dispatchDeferredRepaints();
    }

    void updateVBlankTimer()
    {
        if (auto* display = Desktop::getInstance().getDisplays().getDisplayForRect (bounds))
        {
            // Some systems fail to set an explicit refresh rate, or ask for a refresh rate of 0
            // (observed on Raspbian Bullseye over VNC). In these situations, use a fallback value.
            const auto newIntFrequencyHz = roundToInt (display->verticalFrequencyHz.value_or (0.0));
            const auto frequencyToUse = newIntFrequencyHz != 0 ? newIntFrequencyHz : 100;

            if (vBlankManager.getTimerInterval() != frequencyToUse)
                vBlankManager.startTimerHz (frequencyToUse);
        }
    }

    //==============================================================================
    std::unique_ptr<LinuxRepaintManager> repainter;
    TimedCallback vBlankManager { [this]() { onVBlank(); } };

    ::Window windowH = {}, parentWindow = {};
    Rectangle<int> bounds;
    ComponentPeer::OptionalBorderSize windowBorder;
    bool fullScreen = false, isAlwaysOnTop = false;
    double currentScaleFactor = 1.0;
    Array<Component*> glRepaintListeners;
    ScopedWindowAssociation association;

    //==============================================================================
    JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (LinuxComponentPeer)
};

bool LinuxComponentPeer::isActiveApplication = false;

//==============================================================================
ComponentPeer* Component::createNewPeer (int styleFlags, void* nativeWindowToAttachTo)
{
    return new LinuxComponentPeer (*this, styleFlags, (::Window) nativeWindowToAttachTo);
}

//==============================================================================
JUCE_API bool JUCE_CALLTYPE Process::isForegroundProcess()    { return LinuxComponentPeer::isActiveApplication; }

JUCE_API void JUCE_CALLTYPE Process::makeForegroundProcess()  {}
JUCE_API void JUCE_CALLTYPE Process::hide()                   {}

//==============================================================================
void Desktop::setKioskComponent (Component* comp, bool enableOrDisable, bool)
{
    if (enableOrDisable)
        comp->setBounds (getDisplays().getDisplayForRect (comp->getScreenBounds())->totalArea);
}

void Displays::findDisplays (const Desktop& desktop)
{
    if (XWindowSystem::getInstance()->getDisplay() != nullptr)
    {
        displays = XWindowSystem::getInstance()->findDisplays (desktop.getGlobalScaleFactor());

        if (! displays.isEmpty())
            updateToLogical();
    }
}

bool Desktop::canUseSemiTransparentWindows() noexcept
{
    return XWindowSystem::getInstance()->canUseSemiTransparentWindows();
}

class Desktop::NativeDarkModeChangeDetectorImpl  : private XWindowSystemUtilities::XSettings::Listener
{
public:
    NativeDarkModeChangeDetectorImpl()
    {
        const auto* windowSystem = XWindowSystem::getInstance();

        if (auto* xSettings = windowSystem->getXSettings())
            xSettings->addListener (this);

        darkModeEnabled = windowSystem->isDarkModeActive();
    }

    ~NativeDarkModeChangeDetectorImpl() override
    {
        if (auto* windowSystem = XWindowSystem::getInstanceWithoutCreating())
            if (auto* xSettings = windowSystem->getXSettings())
                xSettings->removeListener (this);
    }

    bool isDarkModeEnabled() const noexcept  { return darkModeEnabled; }

private:
    void settingChanged (const XWindowSystemUtilities::XSetting& settingThatHasChanged) override
    {
        if (settingThatHasChanged.name == XWindowSystem::getThemeNameSettingName())
        {
            const auto wasDarkModeEnabled = std::exchange (darkModeEnabled, XWindowSystem::getInstance()->isDarkModeActive());

            if (darkModeEnabled != wasDarkModeEnabled)
                Desktop::getInstance().darkModeChanged();
        }
    }

    bool darkModeEnabled = false;

    JUCE_DECLARE_NON_COPYABLE_WITH_LEAK_DETECTOR (NativeDarkModeChangeDetectorImpl)
};

std::unique_ptr<Desktop::NativeDarkModeChangeDetectorImpl> Desktop::createNativeDarkModeChangeDetectorImpl()
{
    return std::make_unique<NativeDarkModeChangeDetectorImpl>();
}

bool Desktop::isDarkModeActive() const
{
    return nativeDarkModeChangeDetectorImpl->isDarkModeEnabled();
}

static bool screenSaverAllowed = true;

void Desktop::setScreenSaverEnabled (bool isEnabled)
{
    if (screenSaverAllowed != isEnabled)
    {
        screenSaverAllowed = isEnabled;
        XWindowSystem::getInstance()->setScreenSaverEnabled (screenSaverAllowed);
    }
}

bool Desktop::isScreenSaverEnabled()
{
    return screenSaverAllowed;
}

double Desktop::getDefaultMasterScale()                             { return 1.0; }

Desktop::DisplayOrientation Desktop::getCurrentOrientation() const  { return upright; }
void Desktop::allowedOrientationsChanged()                          {}

//==============================================================================
bool detail::MouseInputSourceList::addSource()
{
    if (sources.isEmpty())
    {
        addSource (0, MouseInputSource::InputSourceType::mouse);
        return true;
    }

    return false;
}

bool detail::MouseInputSourceList::canUseTouch() const
{
    return false;
}

Point<float> MouseInputSource::getCurrentRawMousePosition()
{
    return Desktop::getInstance().getDisplays().physicalToLogical (XWindowSystem::getInstance()->getCurrentMousePosition());
}

void MouseInputSource::setRawMousePosition (Point<float> newPosition)
{
    XWindowSystem::getInstance()->setMousePosition (Desktop::getInstance().getDisplays().logicalToPhysical (newPosition));
}

//==============================================================================
class MouseCursor::PlatformSpecificHandle
{
public:
    explicit PlatformSpecificHandle (const MouseCursor::StandardCursorType type)
        : cursorHandle (makeHandle (type)) {}

    explicit PlatformSpecificHandle (const detail::CustomMouseCursorInfo& info)
        : cursorHandle (makeHandle (info)) {}

    ~PlatformSpecificHandle()
    {
        if (cursorHandle != Cursor{})
            XWindowSystem::getInstance()->deleteMouseCursor (cursorHandle);
    }

    static void showInWindow (PlatformSpecificHandle* handle, ComponentPeer* peer)
    {
        const auto cursor = handle != nullptr ? handle->cursorHandle : Cursor{};

        if (peer != nullptr)
            XWindowSystem::getInstance()->showCursor ((::Window) peer->getNativeHandle(), cursor);
    }

private:
    static Cursor makeHandle (const detail::CustomMouseCursorInfo& info)
    {
        const auto image = info.image.getImage();
        return XWindowSystem::getInstance()->createCustomMouseCursorInfo (image.rescaled ((int) (image.getWidth()  / info.image.getScale()),
                                                                                          (int) (image.getHeight() / info.image.getScale())), info.hotspot);
    }

    static Cursor makeHandle (MouseCursor::StandardCursorType type)
    {
        return XWindowSystem::getInstance()->createStandardMouseCursor (type);
    }

    Cursor cursorHandle;

    //==============================================================================
    JUCE_DECLARE_NON_COPYABLE (PlatformSpecificHandle)
    JUCE_DECLARE_NON_MOVEABLE (PlatformSpecificHandle)
};

//==============================================================================
static LinuxComponentPeer* getPeerForDragEvent (Component* sourceComp)
{
    if (sourceComp == nullptr)
        if (auto* draggingSource = Desktop::getInstance().getDraggingMouseSource (0))
            sourceComp = draggingSource->getComponentUnderMouse();

    if (sourceComp != nullptr)
        if (auto* lp = dynamic_cast<LinuxComponentPeer*> (sourceComp->getPeer()))
            return lp;

    jassertfalse;  // This method must be called in response to a component's mouseDown or mouseDrag event!
    return nullptr;
}

bool DragAndDropContainer::performExternalDragDropOfFiles (const StringArray& files, bool canMoveFiles,
                                                           Component* sourceComp, std::function<void()> callback)
{
    if (files.isEmpty())
        return false;

    if (auto* peer = getPeerForDragEvent (sourceComp))
        return XWindowSystem::getInstance()->externalDragFileInit (peer, files, canMoveFiles, std::move (callback));

    // This method must be called in response to a component's mouseDown or mouseDrag event!
    jassertfalse;
    return false;
}

bool DragAndDropContainer::performExternalDragDropOfText (const String& text, Component* sourceComp,
                                                          std::function<void()> callback)
{
    if (text.isEmpty())
        return false;

    if (auto* peer = getPeerForDragEvent (sourceComp))
        return XWindowSystem::getInstance()->externalDragTextInit (peer, text, std::move (callback));

    // This method must be called in response to a component's mouseDown or mouseDrag event!
    jassertfalse;
    return false;
}

//==============================================================================
void SystemClipboard::copyTextToClipboard (const String& clipText)
{
    XWindowSystem::getInstance()->copyTextToClipboard (clipText);
}

String SystemClipboard::getTextFromClipboard()
{
    return XWindowSystem::getInstance()->getTextFromClipboard();
}

//==============================================================================
bool KeyPress::isKeyCurrentlyDown (int keyCode)
{
    return XWindowSystem::getInstance()->isKeyCurrentlyDown (keyCode);
}

void LookAndFeel::playAlertSound()
{
    std::cout << "\a" << std::flush;
}

//==============================================================================
Image detail::WindowingHelpers::createIconForFile (const File&)
{
    return {};
}

void juce_LinuxAddRepaintListener (ComponentPeer* peer, Component* dummy);
void juce_LinuxAddRepaintListener (ComponentPeer* peer, Component* dummy)
{
    if (auto* linuxPeer = dynamic_cast<LinuxComponentPeer*> (peer))
        linuxPeer->addOpenGLRepaintListener (dummy);
}

void juce_LinuxRemoveRepaintListener (ComponentPeer* peer, Component* dummy);
void juce_LinuxRemoveRepaintListener (ComponentPeer* peer, Component* dummy)
{
    if (auto* linuxPeer = dynamic_cast<LinuxComponentPeer*> (peer))
        linuxPeer->removeOpenGLRepaintListener (dummy);
}

} // namespace juce
